Blocking the receptor EP3 to PGE2 as a way to safely prevent atherothrombosis

Abstract

Aspirin inhibits the platelet production of thromboxane A2 and its beneficial effect on myocardial infarction was demonstrated more than two decades ago. This result validated the strategy aimed at targeting platelet function to prevent myocardial infarction. Since then, numerous drugs targeting various activators of platelets have been developed to further improve prevention. However, the beneficial effect of all these drugs on atherothrombosis is limited by an increased risk of bleeding, because they target thrombosis effectors which are also key players in hemostasis. Since aspirin blocks the generation of numerous prostanoids, including inhibitors of platelet activation, targeting one of them might allow the antithrombotic activity to be maintained without promoting bleeding. In examining the roles of various arachidonic acid metabolites on atherothrombosis, we studied the prostaglandin E2 (PGE2). In vivo, PGE2 facilitates the responses of platelets to all their various activators through its receptor EP3. PGE2 is produced in relatively high amounts in the context of chronic inflammation such as atherosclerosis, and aggravates murine atherothrombosis. Conversely, PGE2 is not involved in hemostasis. As expected, blocking EP3 strikingly reduced atherothrombosis in mice without impacting bleeding tests. In a recent paper published in Prostaglandins & Other Lipid Mediators, we reviewed literature data about the effect of PGE2 and its receptor EP3 on platelet thrombosis and hemostasis in mice and humans. We concluded that cumulated data now justifies validating the role of EP3 blockers with phase III trials to safely improve the prevention of myocardial infarction.